AQA A Level Chemistry复习笔记5.1.7 Gibbs Free Energy
Gibbs Free Energy
Gibbs free energy
- As we have seen in the previous sections, the feasibility of a reaction is determined by two factors, the?enthalpy change?and the?entropy change
- The two factors come together in a fundamental thermodynamic concept called the?Gibbs free energy (G)
- The Gibbs equation is:
ΔG??= ΔHreaction??- TΔSsystem?
- The units of ΔG??are in kJ mol-1
- The units of ΔHreaction??are in kJ mol-1
- The units of T are in K
- The units of ΔSsystem??are in J K-1?mol-1(and must therefore be converted to kJ K-1?mol-1?by dividing by 1000)
Calculating ΔG?
- There are two ways you can calculate the value of ΔG?
- From ΔH??and ΔS??values
- From ΔG? ?values of all the substances present
Worked Example
ΔG??from ΔH??and ΔS??valuesCalculate the free energy change for the following reaction:
2NaHCO3?(s)?→ Na2CO3?(s) + H2O (l) + CO2?(g)
ΔH??= +135?kJ mol-1? ? ? ??ΔS??= +344?J K-1?mol-1
Answer
Step 1:?Convert the entropy value in kilojoules
ΔS??= +344 J K-1?mol-1??÷ 1000 = +0.344 kJ K-1?mol-1
Step 2:?Substitute the terms into the Gibbs Equation
ΔG??= ΔHreaction??- TΔSsystem?
= +135 - (298 x 0.344)
=?+32.49 kJ mol-1
The temperature is 298 K since standard values are quoted in the question
Worked Example
ΔG??from other ΔG??valuesWhat is the standard free energy change, ΔG?, for the following reaction?
C2H5OH(l) + 3O2(g)?→?2CO2(g) + 3H2O(g)
Answer
ΔG??= ΣΔGproducts??- ΣΔGreactants?
ΔG??= [(2 x CO2?) + (3 x H2O )] - [(C2H5OH) + (3 x O2)]
ΔG??= [(2 x -394?) + (3 x -229 )] - [-175 + 0]
ΔG??=?-1300 kJ?mol-1
Exam Tip
The idea of free energy is what's 'leftover' to do useful work when you've carried out the reaction. The enthalpy change is the difference between the energy you put in to break the chemical bonds and the energy out when making new bonds; the entropy change is the 'cost' of carrying our the reaction, so free energy is what is you are left with!
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